EP1930085A2 - Pump for dispensing a liquid product - Google Patents

Abstract

The pump has a tubular body (1) extending along a central axis between a pair of ends (3, 4). An inlet valve selectively closes off an inlet orifice (6). A stem (20) moves axially inside the body between a far position and a near position relative to the inlet orifice. An annular piston (25) slides axially inside the body and on the stem. The piston and a base (30) comprise annular surfaces for providing mutual contact and forming a discharge valve (33) for selectively closing off the discharge orifice. A ball-and-socket joint is arranged between an insert (22) and an actuation tube (21).

Description

The invention relates to a pump for dispensing a fluid product.

• un corps tubulaire s'étendant selon un axe central entre une première et une deuxième extrémités, délimitant intérieurement une chambre de dosage et comportant un orifice d'admission du produit fluide dans la chambre de dosage au voisinage de ladite première extrémité,
• un clapet d'admission adapté pour obturer sélectivement l'orifice d'admission,
• un gicleur monté mobile axialement à l'intérieur du corps entre une position éloignée et une position rapprochée par rapport à l'orifice d'admission, ledit gicleur étant rappelé élastiquement vers la position éloignée, ledit gicleur comprenant un tube d'actionnement axial allongé délimitant un conduit de sortie, un insert allongé assemblé au tube d'actionnement et comportant une base disposée à l'intérieur de la chambre de dosage en regard de l'orifice d'admission, et un orifice d'échappement du produit fluide vers le conduit de sortie,
• un piston annulaire monté coulissant axialement à l'intérieur du corps et sur le gicleur, le piston et la base comprenant des portées annulaires adaptées pour venir en contact mutuel et former un clapet d'échappement obturant sélectivement l'orifice d'échappement.

More particularly, the invention relates to a pump for dispensing a fluid product, comprising:

• a tubular body extending along a central axis between a first and a second end, defining internally a metering chamber and having an inlet for the fluid in the metering chamber in the vicinity of said first end,
• an intake valve adapted to selectively close the inlet orifice,
• a nozzle mounted axially movable inside the body between a remote position and a position close to the inlet orifice, said nozzle being elastically biased towards the remote position, said nozzle comprising an elongated axial actuating tube defining an outlet duct, an elongated insert assembled to the actuating tube and having a base disposed inside the metering chamber opposite the inlet orifice, and an outlet orifice for the fluid product towards the duct Release,
• an annular piston mounted to slide axially inside the body and on the nozzle, the piston and the base comprising annular bearings adapted to come into mutual contact and form an exhaust valve selectively closing the exhaust port.

Such an embodiment of the two-piece nozzle assembled, namely the insert and the actuating tube, is intended to allow the mounting of the piston on the nozzle, for example when said nozzle is provided with shoulders facing the base, particularly for limit the stroke of the piston or to form a seat for a resilient member adapted to recall the nozzle in the remote position.

In a known pump of the aforementioned type, the insert is rigidly connected to the actuating tube, by press fitting or otherwise.

However, such a pump poses problems in terms of design because it requires a precise relative positioning of the insert and the actuating tube and a manufacture of the insert and the actuating tube with reduced tolerances.

In addition, the known pump has problems of sealing and piston wear. Indeed, such a pump may have an angular offset between the insert and the actuating tube. Therefore, the piston can not exert a distributed support inside the body which impairs the seal and increases the risk of premature wear of the piston. And the annular bearings of the base and the piston can not come in contact in a uniform manner. This results in a lack of sealing of the exhaust valve and a risk of wear of the piston seats.

The invention aims to overcome the problems mentioned above.

For this purpose, the invention proposes a pump of the aforementioned type in which a swiveling is provided between the insert and the actuating tube.

Thus, the swiveling facilitates the assembly and manufacture of the insert and the actuating tube. In addition, it provides a centering and self-alignment between the insert and the actuating tube and between the piston and the body so as to obtain uniformity in the contacts between the annular bearings of the base and the piston and a better distribution of the support of the piston inside the body. This arrangement then improves the sealing of the piston and the exhaust valve and limit wear.

On the other hand, because of the better sealing, the realization of the swiveling between the insert and the actuating tube improves the capacity of the pump in terms of fluid distribution and priming, when the displacement the nozzle aims to expel the air initially contained upstream of the exhaust valve, in particular in the metering chamber, to replace it with fluid.

In particular, the depression which occurs in the metering chamber as the nozzle moves from the close position to the remote position is improved, which increases the fluid or air suction capacity during priming.

The pump according to the invention can thus be used with any type of fluid, including viscous fluids.

• l'insert comporte en outre une tige qui s'étend depuis la base, sensiblement perpendiculairement à ladite base, ladite tige étant disposée dans une extrémité ouverte du tube d'actionnement située à proximité de l'orifice d'admission,
• la tige comprend une extrémité libre fixée de manière articulée à l'intérieur du tube d'actionnement, un jeu axial et un jeu transversal étant ménagés entre l'insert et le tube d'actionnement,
• l'extrémité libre de la tige est pourvue d'une tête encliquetée sur un rebord annulaire formé dans le tube d'actionnement,
• les portées annulaires du piston et de la base présentent des zones complémentaires courbes ou inclinées par rapport à l'axe central,
• le piston comprend un manchon central présentant une extrémité libre définissant les portées annulaires du piston, la base présente une concavité tournée vers le piston et dans laquelle s'étend l'extrémité libre du manchon,
• la base est adaptée pour réaliser un pincement de l'extrémité libre du manchon : une telle coopération par pincement du manchon central du piston et de la base permet d'augmenter et de renforcer le contact entre les portées annulaires et ainsi d'assurer une bonne étanchéité du clapet d'échappement ; le centrage et l'auto-alignement entre l'insert et le tube d'actionnement offre un positionnement relatif adapté de la base et du piston pouvant ainsi assurer un pincement maîtrisé de sorte à améliorer encore l'étanchéité du clapet d'échappement,
• la base comprend une partie centrale et une collerette périphérique tronconique qui s'étend depuis la partie centrale, la partie centrale et la collerette définissant les portées annulaires de la base situées de part et d'autre de l'extrémité libre du manchon,
• la base comporte une rainure annulaire ménagée dans la concavité entre la partie centrale et la collerette : la rainure peut ainsi améliorer une capacité de déformation de la base pour améliorer le pincement de l'extrémité libre du manchon et assurer l'étanchéité du clapet d'échappement,
• la base présente un organe de remplissage adapté pour occuper des volumes morts de la chambre de dosage et pour venir en butée sur une surface du corps en position rapprochée du gicleur : la capacité d'aspiration de la pompe est ainsi améliorée et on évite que ce soit le piston qui vienne en butée sur le corps de sorte à limiter l'usure du piston,
• la base et la chambre de dosage au voisinage de l'orifice d'admission présentent des formes sensiblement complémentaires : en position rapprochée, le volume de la chambre peut ainsi être minimum,
• la pompe comprend un extenseur annulaire associé à la deuxième extrémité du corps et adapté pour guider le tube d'actionnement en translation selon l'axe central, et un organe élastique adapté pour rappeler le gicleur vers la position éloignée, ledit organe élastique étant disposé entre l'extenseur et le tube d'actionnement : cette disposition permet notamment d'améliorer la compacité de la pompe et d'éviter tout risque de contamination du produit fluide par contact avec l'organe élastique.

In particular embodiments, the pump may optionally present one or more of the following provisions:

• the insert further comprises a rod extending from the base, substantially perpendicular to said base, said rod being disposed in an open end of the actuating tube located near the inlet orifice,
• the rod comprises a free end hingedly attached to the inside of the actuating tube, an axial clearance and a transverse clearance being formed between the insert and the actuating tube,
• the free end of the rod is provided with a head snapped onto an annular flange formed in the actuating tube,
• the annular bearings of the piston and of the base have complementary zones curved or inclined with respect to the central axis,
• the piston comprises a central sleeve having a free end defining the annular bearings of the piston, the base has a concavity facing the piston and in which the free end of the sleeve extends,
• the base is adapted to make a pinch of the free end of the sleeve: such a cooperation by pinching the central sleeve of the piston and the base makes it possible to increase and reinforce the contact between the annular bearings and thus to ensure good sealing of the exhaust valve; centering and self-alignment between the insert and the actuating tube offers a relative positioning adapted to the base and the piston thus able to ensure a controlled nip so as to further improve the tightness of the exhaust valve,
• the base comprises a central part and a frustoconical peripheral flange which extends from the central part, the central part and the flange defining the annular bearing surfaces of the base located on either side of the free end of the sleeve,
• the base comprises an annular groove formed in the concavity between the central part and the flange: the groove can thus improve a capacity of deformation of the base to improve the pinching of the free end of the sleeve and ensure the sealing of the flap of exhaust,
• the base has a filling member adapted to occupy dead volumes of the metering chamber and to abut on a surface of the body in the close position of the nozzle: the suction capacity of the pump is thus improved and it is avoided that the piston that comes into abutment on the body so as to limit the wear of the piston,
• the base and the metering chamber in the vicinity of the inlet orifice have substantially complementary shapes: in a close position, the volume of the chamber can thus be minimum,
• the pump comprises an annular expander associated with the second end of the body and adapted to guide the actuating tube in translation along the central axis, and an elastic member adapted to bias the nozzle towards the remote position, said elastic member being disposed between the expander and the actuating tube: this arrangement makes it possible in particular to improve the compactness of the pump and to avoid any risk of contamination of the fluid product by contact with the elastic member.

• la figure 1 est une représentation en coupe longitudinale d'une pompe selon un premier mode de réalisation de l'invention,
• la figure 2 est une représentation du détail référencé II sur la figure 1,
• la figure 3 est une représentation en perspective éclatée de la pompe de la figure 1,
• la figure 4 est une représentation en perspective d'un tube d'actionnement et d'un insert de la pompe de la figure 1,
• les figures 5a, 5b et 5c sont des représentations en coupe longitudinale d'étapes de l'actionnement de la pompe de la figure 1,
• la figure 6 est une représentation en coupe longitudinale d'une pompe selon un deuxième mode de réalisation de l'invention,
• la figure 7 est une représentation du détail référencé VII sur la figure 6,
• la figure 8 est une représentation en perspective éclatée de la pompe de la figure 6,
• la figure 9 est une représentation d'un tube d'actionnement et d'un insert de la pompe de la figure 6,
• les figures 10a, 10b et 10c sont des représentations en coupe longitudinale d'étapes de l'actionnement de la pompe de la figure 6.

Other objects and advantages of the invention will appear on reading the description which follows, made with reference to the appended drawings in which:

• FIG. 1 is a representation in longitudinal section of a pump according to a first embodiment of the invention,
• FIG. 2 is a representation of the detail referenced II in FIG. 1,
• FIG. 3 is an exploded perspective representation of the pump of FIG.
• FIG. 4 is a perspective representation of an actuating tube and an insert of the pump of FIG. 1,
• FIGS. 5a, 5b and 5c are longitudinal sectional representations of steps of the actuation of the pump of FIG. 1,
• FIG. 6 is a representation in longitudinal section of a pump according to a second embodiment of the invention,
• FIG. 7 is a representation of the detail referenced VII in FIG. 6,
• FIG. 8 is an exploded perspective representation of the pump of FIG. 6,
• FIG. 9 is a representation of an actuating tube and an insert of the pump of FIG. 6,
• FIGS. 10a, 10b and 10c are longitudinal sectional representations of steps of the actuation of the pump of FIG. 6.

In the figures, the same references designate identical or similar elements.

• un corps 1 tubulaire s'étendant selon un axe central A entre une première 3 et une deuxième 4 extrémités, délimitant intérieurement une chambre de dosage 2 de volume déterminé et comportant un orifice d'admission 6 du produit fluide dans la chambre de dosage 2 au voisinage de la première extrémité 3,
• un organe de compression monté coulissant selon l'axe central A à l'intérieur du corps 1 de sorte à pouvoir faire varier le volume de la chambre de dosage 2.

In the figures, there is shown a pump for dispensing a fluid, liquid or viscous product, for example from the field of perfumery, pharmacy, cosmetics or other. The pump includes:

• a tubular body 1 extending along a central axis A between a first 3 and a second 4 ends, defining internally a metering chamber 2 of a given volume and having an inlet 6 for the fluid in the metering chamber 2 at neighborhood of the first end 3,
• a compression member slidably mounted along the central axis A inside the body 1 so as to be able to vary the volume of the metering chamber 2.

The pump is intended to be arranged by the first end 3 of the body 1 in an opening of a tank, not shown, and fixed in a known manner, for example by fitting and / or by means of a fastener, to the reservoir so that it can take a dose of fluid contained in the reservoir.

In the remainder of the description, the terms "upper" or "high" and "lower" or "low" will be understood with respect to locations located respectively close to the second end 4 of the body 1 and close to the first end. 3 of the body 1. In addition, the terms "axial" or "longitudinal" and "radial" or "transverse" refer to planes respectively parallel and perpendicular to the central axis A.

The body 1 has an annular side wall 7 in which the compression member is mounted. The side wall 7 has an inner surface, an outer surface, an open upper end forming the second end 4 of the body 1, and a lower end.

In the figures, the inner surface of the side wall 7 of the body 1 may have a substantially circular section. The upper end 4 may have an annular flange 5 projecting outwards and whose inner surface has a diameter. The inner surface of the side wall 7 of the body 1 may also have a first portion adjacent to the flange 5 with a first diameter substantially smaller than the diameter of the flange 5 and a second portion, adjacent to the first portion opposite the flange 5, with a second diameter substantially smaller than the first diameter.

A through hole forming a vent hole 8 can be formed in the side wall 7 so as to allow air to pass between the outside and the inside of the tank. to compensate for the dose of fluid taken by the pump.

In the particular embodiments shown, it is provided that the body 1 may also have an annular bottom wall 9 which extends from the lower end of the side wall 7 and whose free end forms the first end 3 of the body 1 , that is to say the lower end.

The bottom wall 9 internally comprises the inlet port 6 and an inlet valve, for example a ball valve comprising a ball 10 and a seat 11, adapted to allow the selective sealing of the inlet port 6 , that is to say its opening, the ball 10 being spaced from the seat 11, or its closure, the ball 10 resting on the seat 11. The abutment members 12 may be provided opposite and away from the seat 11 to limit the movements of the ball 10.

The bottom wall 9 may for example receive by fitting a dip tube, not shown, for putting in fluid communication the metering chamber with the reservoir.

According to the embodiments, the fitting of the dip tube can be carried out on an inner or outer surface of the bottom wall 9, said surface having a circular, elliptical, polygonal or other section. The free end of the bottom wall 9 may then comprise an inner chamfer 13a and / or an outer chamfer 13b so as to facilitate the fitting of the dip tube. Furthermore, other arrangements relating to the surface on which the fitting of the dip tube is made may be provided to facilitate the fitting and / or improve the maintenance of the dip tube. In particular, it can be provided that said surface has a section of variable size or at least one retaining projection.

The invention is however not limited in particular to a body 1 or a valve as described above. For example, the body 1 may be devoid of bottom wall 9, the lower end of the side wall 7 forming the first end 3 of the body 1, or comprise an inner wall surrounded by the side wall 7, the valve and the inlet port 6 being adapted accordingly.

To close the upper end 4 of the body 1 and to allow the guide of the dispensing member in translation along the central axis A, the pump further comprises an annular expander 14 associated with the upper end 4 of the body 1.

In the figures, the stent 14 may comprise an upper portion projecting from the upper end 4 of the body 1 and a lower portion extending inside the side wall 7. The lower portion of the expander 14 may be associated with the inner surface of the side wall 7 of the body 1 by any known means, including fitting, latching or other. Alternatively, it can be provided that the stent 14 is associated with the outer surface of the side wall 7 of the body 1.

It can be provided that the stent 14 also includes a radially outwardly projecting shoulder 15 for resting on the rim 5 of the body 1 and an inwardly extending radial protrusion 16.

• un gicleur 20 monté mobile axialement à l'intérieur du corps 1 entre une position éloignée et une position rapprochée par rapport à l'orifice d'admission 6,
• un piston 25 annulaire monté coulissant axialement à l'intérieur du corps 1 et sur le gicleur 20.

The compression member comprises:

• a nozzle 20 mounted axially movable inside the body 1 between a remote position and a position that is close to the inlet orifice 6,
• an annular piston 25 mounted to slide axially inside the body 1 and on the nozzle 20.

The nozzle 20 comprises an elongated axial actuating tube 21 which delimits an outlet duct for the fluid product from the metering chamber to the outside, an elongate insert 22 assembled to the actuating tube 21 and an exhaust port of the fluid product from the metering chamber 2 to the outlet duct.

The actuating tube 21 extends inside the stent 14 and includes a lower end open, disposed within the body 1 and located near the inlet port 6, and an upper end open, located at a distance from the inlet port 6 and protruding from the upper end 4 of the body 1.

The upper end of the actuating tube 21 is adapted to allow the attachment of an actuating member, such as a pusher not shown, on which a user can exert pressure to move the nozzle 20 from the remote position towards the close position.

In addition, it is expected that the nozzle 20 is resiliently biased towards the remote position. To do this, the actuating tube 21 has an annular rim 23 which extends outwards and which is disposed facing the radial projection 16 of the expander 14. An elastic member, for example a compression spring 17, extends between the edge 23 of the actuating tube 21 and the radial projection 16 of the stent 14.

The compression spring 17 thus disposed around the actuating tube 21 outside the metering chamber 2 improves the compactness of the pump and prevents contact between the fluid and the compression spring 17. However, it is possible, alternatively, any other suitable arrangement of the compression spring 17, especially outside the expander 14, or any other type of elastic member.

To ensure translation guidance along the central axis A of the actuating tube, an annular skirt 19 may extend axially from the free end of the rim 23 of the actuating tube 21. The skirt 19 of the tube actuation then has an outer dimension, measured transversely, substantially equal to or smaller than the inner dimension, measured transversely, of the upper part of the stent 14.

Moreover, in the embodiments shown, the lower end of the actuating tube 21 defines the exhaust orifice defined by one or several passages for the fluid product to the outlet duct. The actuating tube 21 has, in the vicinity of the lower end, an end zone 24 of reduced transverse dimension. The end zone 24 on which the piston 25 is slidably mounted may be delimited upwards by a shoulder 18.

The insert 22 has a base 30 which extends generally transversely to the central axis A and which is disposed inside the metering chamber 2 facing the inlet orifice 6. The base 30 may comprise a central portion 31 and a peripheral flange 32 which extends substantially transversely with respect to the central axis A from the central portion 31.

The base 30 and the piston 25 comprise annular bearings adapted to come into mutual contact and form an exhaust valve 33 selectively closing, during the sliding of the piston 25 on the nozzle 20, the exhaust port.

To allow the mounting of the piston 25 on the nozzle 20 having, on the one hand, the edge 23 and the shoulder 18 on the actuating tube 21 and, on the other hand, the base 30 on the insert 22, the actuating tube 21 and the insert 22 are two separate pieces assembled after the piston 25 has been mounted on the actuating tube 21.

Moreover, in the embodiments shown, the rim 23 is integral with the actuating tube 21. The actuating tube 21 is then mounted in the stent 14 by the upper part prior to assembly of the compression member and mounting the expander 14 on the body 1 of the pump. Alternatively, it is expected that the edge 23 can be reported, the mounting of the expander 14 can then be achieved after assembly of the compression member.

So that the relative positioning of the insert 22 and the actuating tube 21 can ensure a tight and uniform contact between the annular bearings of the base 30 and the piston 25 and a satisfactory support of the piston 25 on the body 1 of the pump, a swiveling is provided between the insert 22 and the actuating tube 21.

The swivel allows to articulate, by means of a ball joint or equivalent, the insert 22 and the actuating tube 21 so as to orient the base 30 relative to the actuating tube 21, particularly angularly by means of rotations about three orthogonal axes, including the central axis A, or by means of a composition of said rotations.

The insert 22 may comprise a rod 34 which extends from the central portion 31 of the base 30 substantially perpendicular to it. The rod 34 may include a free end on the opposite side of the base 30, hingedly attached to the inside of the actuator tube 21, an axial clearance Ja Jt and a transverse clearance being formed between the insert 22 and the actuating tube 21.

For example, the free end of the rod 34 is provided with a head 35 snapped onto an annular flange 36 formed inside the actuating tube 21. In the embodiments shown in the figures, the head 35 is conical and has a generally transverse and flat lower surface resting a generally transverse and flat upper surface of the flange 36.

The insert 22 may comprise centering members with respect to the inner surface of the actuating tube 21. The centering members are adapted to allow the transverse play Jt between the insert 22 and the actuating tube 21. On the FIGS, the centering members comprise longitudinal wings 37 equireparties which extend from the rod 34 of the insert 22 in the direction of the inner surface of the actuating tube 21.

The insert 22 may also comprise abutment members disposed facing the lower end of the actuating tube 21 with an axial clearance Ja between the insert 22 and the actuating tube 21. In the figures, the abutment include longitudinal studs equidistributed 38 which extend between the fins 37 and the base 30.

The fins 37 and the studs 38 make it possible to limit the movements of the insert 22 with respect to the actuating tube 21.

The fins 37 and the pads 38 also make it possible to provide passages for the fluid product between the insert 22 and the actuating tube 21.

In the first embodiment shown in Figures 1 to 5, the passages are formed between the fins 37, on the one hand, and between the head 35 and discontinuities formed in the flange 36, on the other hand.

Alternatively not shown, however, it can be provided that the rim 36 is continuous and has no discontinuity. The passages for the fluid product can then be made by a space formed between the rod 34 and the flange 36, for example because of a difference between the outer diameter of the rod 34 and the inside diameter of the flange 36.

In the second embodiment shown in Figures 6 to 10, the head 35 rests on the rim 36 which can be continuous. Flats 39 may then be provided on the head 35 and extend along the rod 34 to form the passages.

In variant not shown, the flange 36 may have discontinuities.

The combination of the snap-fastening of the head 35, the axial clearance Ja and the transverse play Jt forms an equivalent connection to a ball joint and makes it possible to arrange between the insert 22 and the actuating tube 21, in addition to the swiveling, a axial displacement.

However, in other embodiments not shown, it can be provided that the contacting surfaces of the head 35 and the flange 36 are curved or inclined with respect to a transverse plane. In addition, the realization of the swiveling is not limited to the embodiment described above. The head 35 of the rod 34 may for example be spherical and arranged in a complementary housing formed on the actuating tube 21.

Furthermore, in the figures, there is shown a nozzle 20 in which the lower end of the actuating tube 21 defines, with the insert 22 having a rod 34 full, the substantially axial exhaust orifice. Alternatively, the exhaust port may be formed transversely in the actuating tube 21. In another variant, the insert may comprise a hollow rod 34 which delimits a lower portion of the outlet duct, the orifice of exhaust that can be provided transversely on the hollow rod or on the actuating tube 21.

The piston 25 is adapted to come into sealing engagement against the inner surface of the side wall 7 of the body 1 and in contact with the annular bearing surfaces of the base 30.

In particular, the piston 25 may comprise a central sleeve 26 slidably mounted on the end zone 24 of the actuating tube 21 between the shoulder 18 and the base 30, the distance between the shoulder 18 and the base 30 being adapted to obtain a sufficient opening of the exhaust valve 33. Alternatively, in the case where the insert 22 comprises a hollow rod 34, it could be provided to mount the piston 25 on the insert 22.

The central sleeve 26 may have a lower free end defining the annular bearing surfaces coming into contact with the annular bearing surfaces of the base 30. The annular piston bearing surfaces 25 and the annular bearing surfaces of the base 30 defined by the central part 31 and the collar 32 may have complementary zones curved or inclined with respect to the central axis A.

In addition, the base may have a concavity facing the piston 25 and in which extends the free end of the sleeve 26. In this way, the base 30 may be adapted to perform a nip of the free end of the sleeve 26 .

For example, the central portion 31 may have an outer surface and the flange 32 extending from the outer surface of the central portion 31 may be frustoconical flaring upwards. The free end of the sleeve 26 can then, with an inner zone, come into contact with a first zone of the outer surface of the central portion 31 and, with an outer zone, come into contact with a second zone of the upper surface of the collar 32.

In the figures, the inner zone of the free end of the sleeve 26 and the first zone of the central portion 31 are substantially axial and the outer zone of the free end of the sleeve 26 and the second zone of the central portion 31 are substantially inclined relative to axial and transverse directions. However, it is possible alternatively to provide other orientations adapted to the zones of the free end of the sleeve 26, the central portion 31 and the collar 32.

The annular bearings of the base 30 can thus be located on either side of the free end of the sleeve 26 to pinch the free end of the sleeve 26 and thus improve the sealing of the contact between the base 30 and the piston 25. With the spigot, one obtains the centering and self-alignment of the insert 22 and the actuating tube 21 and a better adapted positioning of the annular bearing surfaces of the base 30 on either side the free end of the sleeve 26 so that the sealing of the exhaust valve 33 is further improved.

In addition, in the first embodiment, the base may comprise an annular groove 29 formed in the concavity between the central portion 31 and the flange 32 to obtain a better flexibility of the flange 32, favoring the pinching of the free end of the sleeve 26 between the central portion 31 and the flange 32.

The piston 25 may also comprise an axial annular sleeve 27 surrounding the central sleeve 26 and connected thereto by a substantially radial wall. The socket 27 defines an upper lip and a lip lower that come into rubbing contact with the inner surface of the side wall 7 of the body 1.

In the embodiments shown, to limit the wear of the piston and the stresses on the upper lip, it is provided that in the remote position of the nozzle 20, the upper lip is disposed against the first part of the side wall 7 of the body 1 Furthermore, the lower lip is disposed against the second part of the side wall 7 of the body 1 so that the metering chamber 2 is delimited radially by the second part of the side wall 7. On the other hand, in the remote position of the nozzle 20, the vent hole 8 is disposed between the upper and lower lips.

However, alternatively, the piston 25 may comprise only one lip bearing on the body 1, the disposition of the vent hole 8 being adapted accordingly to put the inside of the tank in fluid communication with the outside when the nozzle 20 moves from the close position to the remote position.

In connection with FIGS. 5a, 5b and 5c and 10a, 10b and 10c, various steps of the actuation of the pump by a user are described.

In the absence of external stress, the nozzle 20 biased by the compression spring 17 is in its remote position (Figures 5a and 10a). Due to the swiveling and the biasing of the compression spring 17, the insert 22 aligns with the actuating tube 21. The piston 25 is in abutment with its radial wall on the stent 14 and the free end the central sleeve 26 rests against the base 30 to close the exhaust valve 33. In the present embodiments, the free end of the sleeve 26 is clamped between the central portion 31 and the flange 32 of the base 30. Moreover, , the inlet valve is closed.

In the embodiments shown, it is expected that the frictional force between the piston 25 and the body 1 is greater than the frictional force between the piston 25 and the nozzle 20. When the user exercises a pressure P, for example via a pusher, on the actuating tube 21, because of the difference between the friction forces, the actuating tube 21 slides relative to the piston 25, so as to open the exhaust valve 33 until the central sleeve 26 comes into abutment against the shoulder 18 of the actuating tube 21.

Then, the displacement of the actuating tube 21 causes the piston 25 to move towards the inlet port 6 (FIGS. 5b, 10b). The displacement of the nozzle 20 can be continued until the nozzle 20 reaches the close position. The inlet flap is closed.

When the user releases the pressure P on the pusher, the compression spring 17 urges the actuating tube 21 towards the remote position and, because of the difference in the friction forces, the actuating tube 21 slides relative to the piston 25 until the central sleeve 26 comes into contact with the base 30 and closes the exhaust valve 33. Then, the rise of the nozzle 20 is accompanied by the raising of the piston 25 in the body 1 and therefore d an increase in the volume of the metering chamber 2. A depression is created in the metering chamber 2, which causes the opening of the intake valve, the ball 10 being offset relative to the seat 11, and a suction of the produced in the dosing chamber 2.

In other embodiments, it could be provided to control the opening and closing of the inlet valve by means of an elastic member such as a pre-compression spring.

In a priming phase, the displacement of the nozzle from the remote position to the close position allows, when the metering chamber 2 is filled with air, before the first use, to expel air to replace it with fluid .

To ensure a rapid priming of the pump and to improve the pump's suction capabilities, the base 30 has a filling member, for example in the form of a ring 40 integral with the free end of the flange 32, adapted to occupy the dead volumes of the metering chamber 2. In particular, the ring 40 may extend in a volume between the central sleeve 26 and the sleeve 27. It may also be provided that the ring is adapted to abut on a surface of the body 1 in the close position of the nozzle 20 to avoid applying constraints on the sleeve 27 in the close position.

To improve the capacity of the pump in terms, in particular, of priming or dispensing the fluid product, provision can be made for the base 30 and the metering chamber 2 in the vicinity of the inlet orifice 6 to have substantially complementary shapes, so that to reduce the volume of the metering chamber 2 in the close position of the nozzle 20.

Claims (12)

Pump for dispensing a fluid product, comprising: - a tubular body (1) extending along a central axis (A) between a first (3) and a second end (4), internally defining a metering chamber (2) and having an inlet (6) fluid in the metering chamber (2) in the vicinity of said first end (3), an inlet valve (10, 11) adapted to selectively close off the inlet orifice (6), - A nozzle (20) mounted axially movable inside the body (1) between a remote position and a position close to the inlet port (6), said nozzle (20) being resiliently biased towards the position remote, said nozzle (20) comprising an elongate axial actuating tube (21) defining an outlet duct, an elongated insert (22) assembled to the actuating tube (21) and having a base (30) disposed at the inside the metering chamber (2) opposite the inlet orifice (6), and an outlet orifice for the fluid product towards the outlet duct, an annular piston (25) mounted sliding axially inside the body (1) and on the nozzle (20), the piston (25) and the base (30) comprising annular bearing surfaces adapted to come into mutual contact and form an exhaust valve (33) selectively closing the exhaust port,
said pump being characterized in that a swiveling is provided between the insert (22) and the actuating tube (21). The pump of claim 1, wherein the insert (22) further comprises a stem (34) extending from the base (30), substantially perpendicular to said base (30), said stem (34) being disposed in an open end of the actuating tube (21) located near the inlet (6). Pump according to claim 2, wherein the rod (34) comprises a free end hingedly attached to the inside of the actuating tube (21), an axial clearance (Ja) and a transverse clearance (Jt) being formed between the insert (22) and the tube actuator (21). Pump according to claim 2 or 3, wherein the free end of the rod (34) is provided with a head (35) snapped onto an annular rim (36) formed in the actuating tube (21). Pump according to any one of claims 1 to 4, wherein the annular bearings of the piston (25) and the base (30) have complementary zones curved or inclined with respect to the central axis (A). A pump according to claim 5, wherein the piston (25) comprises a central sleeve (26) having a free end defining the annular bearings of the piston (25), the base (30) has a concavity facing the piston (25) and in which extends the free end of the sleeve (26). Pump according to claim 6, wherein the base (30) is adapted to pinch the free end of the sleeve (26). Pump according to Claim 7, in which the base (30) comprises a central part (31) and a frustoconical peripheral collar (32) extending from the central part (31), the central part (31) and the collar ( 32) defining the annular bearing surfaces of the base (30) located on either side of the free end of the sleeve (26). Pump according to claim 8, wherein the base (30) has an annular groove (29) formed in the concavity between the central portion (31) and the flange (32). Pump according to any one of claims 1 to 9, wherein the base (30) has a filling member (40) adapted to occupy dead volumes of the metering chamber (2) and to abut on a surface of the body (1) in a position close to the nozzle (20). Pump according to any one of claims 1 to 10, wherein the base (30) and the metering chamber (2) adjacent the inlet (6) have substantially complementary shapes. Pump according to any one of claims 1 to 11, comprising an annular expander (14) associated with the second end (4) of the body (1) and adapted to guide the actuating tube (21) in translation along the axis central (A), and a resilient member (17) adapted to bias the nozzle toward the remote position, said resilient member (17) being disposed between the stent (14) and the actuating tube (21).

Images